2014
DOI: 10.1103/physrevlett.113.193002
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Cooperative Lamb Shift in a Mesoscopic Atomic Array

Abstract: Whenever several quantum light emitters are brought in proximity with one another, their interaction with common electromagnetic fields couples them, giving rise to cooperative shifts in their resonance frequency. Such collective line shifts are central to modern atomic physics, being closely related to superradiance[1] on one hand and the Lamb shift[2] on the other. Although collective shifts have been theoretically predicted more than fifty years ago [3], the effect has not been observed yet in a controllabl… Show more

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Cited by 126 publications
(125 citation statements)
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“…This subject is obviously very old, but cold atomic samples afford an opportunity for experiments in unprecedented regimes and in unprecedented detail. Correspondingly, new experiments are emerging rapidly [1][2][3][4][5][6][7][8][9][10]. The measurements of the optical response have been dominated by trapped inhomogeneous atomic ensembles, but also those with atoms confined in a slab geometry are emerging in increasing numbers in both thermal vapor cells using a hot gas [11] and in the ultracold regime [12].…”
Section: Introductionmentioning
confidence: 99%
“…This subject is obviously very old, but cold atomic samples afford an opportunity for experiments in unprecedented regimes and in unprecedented detail. Correspondingly, new experiments are emerging rapidly [1][2][3][4][5][6][7][8][9][10]. The measurements of the optical response have been dominated by trapped inhomogeneous atomic ensembles, but also those with atoms confined in a slab geometry are emerging in increasing numbers in both thermal vapor cells using a hot gas [11] and in the ultracold regime [12].…”
Section: Introductionmentioning
confidence: 99%
“…For example, the first experimental demonstration of superradiance and subradiance for an ensemble of microscopically resolvable particles was for a pair of ions separated with varying separation [4]. Similar recent studies have measured cooperative shifts in ion chains up to N = 8 [5], superradiance for 0.19 〈N 〉 2.6 atoms coupled along a 1D waveguide [10], and excitation hopping along 1D atoms chains (N = 3 [50]) which may also exhibit subradiance (N = 20 [40]). …”
Section: Part Ii: Cooperative Behaviour In 1d Arraysmentioning
confidence: 64%
“…1.3). These have been realised experimentally in a number of different systems, including quantum dots [2], nuclei [3], ions [4,5,6], Bose-Einstein condensates [7], cold atoms [8,9,10,11] and atoms at room-temperature [12]. Additional cooperative phenomena can include highly directional scattering [13], excitation localization [14,15,16], and modified optical transmission and scattering [17,18,19].…”
Section: Cooperativitymentioning
confidence: 99%
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